First of all, I am aware that this question really sounds as if I didn't search, but I did, a lot.

I wrote a small Mandelbrot drawing code for C#, it's basically a windows form with a PictureBox on which I draw the Mandelbrot set.

My problem is, is that it's pretty slow. Without a deep zoom it does a pretty good job and moving around and zooming is pretty smooth, takes less than a second per drawing, but once I start to zoom in a little and get to places which require more calculations it becomes really slow.

On other Mandelbrot applications my computer does really fine on places which work much slower in my application, so I'm guessing there is much I can do to improve the speed.

I did the following things to optimize it:

Instead of using the SetPixel GetPixel methods on the bitmap object, I used LockBits method to write directly to memory which made things a lot faster.

Instead of using complex number objects (with classes I made myself, not the built-in ones), I emulated complex numbers using 2 variables, re and im. Doing this allowed me to cut down on multiplications because squaring the real part and the imaginary part is something that is done a few time during the calculation, so I just save the square in a variable and reuse the result without the need to recalculate it.

I use 4 threads to draw the Mandelbrot, each thread does a different quarter of the image and they all work simultaneously. As I understood, that means my CPU will use 4 of its cores to draw the image.

I use the Escape Time Algorithm, which as I understood is the fastest?

Here is my how I move between the pixels and calculate, it's commented out so I hope it's understandable:

```
//Pixel by pixel loop:
for (int r = rRes; r < wTo; r++)
{
for (int i = iRes; i < hTo; i++)
{
//These calculations are to determine what complex number corresponds to the (r,i) pixel.
double re = (r - (w/2))*step + zeroX ;
double im = (i - (h/2))*step - zeroY;
//Create the Z complex number
double zRe = 0;
double zIm = 0;
//Variables to store the squares of the real and imaginary part.
double multZre = 0;
double multZim = 0;
//Start iterating the with the complex number to determine it's escape time (mandelValue)
int mandelValue = 0;
while (multZre + multZim < 4 && mandelValue < iters)
{
/*The new real part equals re(z)^2 - im(z)^2 + re(c), we store it in a temp variable
tempRe because we still need re(z) in the next calculation
*/
double tempRe = multZre - multZim + re;
/*The new imaginary part is equal to 2*re(z)*im(z) + im(c)
* Instead of multiplying these by 2 I add re(z) to itself and then multiply by im(z), which
* means I just do 1 multiplication instead of 2.
*/
zRe += zRe;
zIm = zRe * zIm + im;
zRe = tempRe; // We can now put the temp value in its place.
// Do the squaring now, they will be used in the next calculation.
multZre = zRe * zRe;
multZim = zIm * zIm;
//Increase the mandelValue by one, because the iteration is now finished.
mandelValue += 1;
}
//After the mandelValue is found, this colors its pixel accordingly (unsafe code, accesses memory directly):
//(Unimportant for my question, I doubt the problem is with this because my code becomes really slow
// as the number of ITERATIONS grow, this only executes more as the number of pixels grow).
Byte* pos = px + (i * str) + (pixelSize * r);
byte col = (byte)((1 - ((double)mandelValue / iters)) * 255);
pos[0] = col;
pos[1] = col;
pos[2] = col;
}
}
```

What can I do to improve this? Do you find any obvious optimization problems in my code?

Right now there are 2 ways I know I can improve it:

I need to use a different type for numbers, double is limited with accuracy and I'm sure there are better non-built-in alternative types which are faster (they multiply and add faster) and have more accuracy, I just need someone to point me where I need to look and tell me if it's true.

I can move processing to the GPU. I have no idea how to do this (OpenGL maybe? DirectX? is it even that simple or will I need to learn a lot of stuff?). If someone can send me links to proper tutorials on this subject or tell me in general about it that would be great.

Thanks a lot for reading that far and hope you can help me :)